JMM ex EOST

Bibliographie sismique : acquisition

Les articles suivants, publiés dans des revues scientifiques, offrent un panorama de l'évolution de la recherche en sismique réflexion pour l'imagerie du sous-sol en relation avec la mise en oeuvre de l'acquisition en mer et ą terre et la conception du dispositif d'acquisition des données.

Acquisition - Amplitudes - Anisotropie - Migration - Mines - Monitoring - Multiples - Ondes S - Physique des roches - Proche surface - Propagation - Puits - Réservoir - Signal - Vitesses

Acquisition marine

Raknes E.B. et al. (2023) New wiggles from old cables: Acquisition, cable, and data aspects
Bachrach R. et al. (2023) New wiggles from old cables: Data processing and imaging considerations
Girard,A. J. Shragge, and B. Olofsson, (2023) Low-frequency ambient ocean-bottom node surface-wave seismology: A Gulf of Mexico case history

Charron, P., E. L'Arvor, J. Fasterling, and G. Richard, (2022), Super-sparse marine 3D: A game changer for seismic exploration
Ourabah A. and A. Chatenay (2022), Unlocking ultra-high-density seismic for CCUS applications by combining nimble nodes and agile source technologies
Durussel, V., D. Bai, A. Baharvand Ahmadi, S. Downie, and K. Millis, (2022), The value of very low frequencies and far offsets for seismic data in the Permian Basin: Case study on a new dense survey from the Central Basin Platform
White,D., G. Bellefleur, K. Dodds, and Z. Movahedzadeh, (2022), Toward improved distributed acoustic sensing sensitivity for surface-based reflection seismics: Configuration tests at the Aquistore CO2 storage site

Kittinat T., M. Landrų, J.K. Brenne, and A. Haukanes, (2021), Distributed acoustic sensing for near-surface imaging using submarine telecommunication cable: A case study in the Trondheimsfjord, Norway
Hlebnikov, V., T. Elboth, V. Vinje, and L.-J. Gelius, (2021), Noise types and their attenuation in towed marine seismic: A tutorial
Morozov A.K., (2021), Underwater ultra-low frequency seismic source

Haavik, K., (2020), Extended use of receiver groups: Theory, synthetic example, and noise considerations
Orji, O., W. Söllner et al., (2020), The music of marine seismic: A marine vibrator system based on folded surfaces
Aharchaou M. and E. Neumann, (2020), An integrated broadband preprocessing method for towed-streamer seismic data

Johansen T., B. Ruud, and G. Hope (2019). Seismic on floating ice on shallow water: Observationsand modeling of guided wave modes

Mueller, M.B., D.F. Halliday, D. van Manen, and J. O. A. Robertsson (2018). Source signature encoding of a vertical source array to separate the emitted direct wave from its ghost

Amundsen, L., O. Pedersen, A. Osen, J. O. A. Robertsson, and M. Landrų (2017). Broadband seismic over/under sources and their designature-deghosting
Haavik K. and M. Landrų (2017). Variable source depth acquisition for (an overall) improved signal-to-noise ratio in marine broadband seismic data: A modeling study.
Dao T. and M. Landrų (2017). Streamer depth versus vessel and seismic interference noise
Amundsen, L., H. Westerdahl, Å. Pedersen, M. Thompson, and M. Landrų (2017). On firing an air gun very shallow

Haavik K.E. and M. Landrų (2016). Estimation of source signatures from air guns fired at various depths: A field test of the source scaling law.
Kumar, A., G. Blacquičre, M. W. Pedersen, and A. Goertz (2016). Full-wavefield marine survey design using all multiples.
Agudo, O., P. Caprioli, and D. van Manen (2016). A spatially compact source designature filter

Haavik K.E. and M. Landrų (2015). Variable source depth acquisition for improved marine broadband seismic data

Landrų, M. and Amundsen, L. (2014). Is it optimal to tow air guns shallow to enhance low frequencies?
Barker, D. and Landrų, M. (2014). An alternative method for modeling close-range interactions between air guns

Soubaras, R. and Lafet, Y. (2013). Variable-depth streamer acquisition: Broadband data for imaging and inversion
Mandroux F., B. S. Ong, C.-O. Ting, S. Mothi, T. Huang and Y. Li (2013). Broadband, long-offset, full-azimuth, staggered marine acquisition in the Gulf of Mexico
Barker, D. and Landrų, M. (2013). Estimation of bubble time period for air-gun clusters using potential isosurfaces.

Orji, O.C., W. Söllner, and L.-J. Gelius, 2012, Effects of time-varying sea surface in marine seismic data
Barker D. and M. Landrų, 2012, Simple expression for the bubble-time period of two clustered air guns
Ronen, S., Kandilarov, A., Massacand, C., Mattocks, B., Paillet, J., Roger, G., and Rokkan, A. (2012). Onboard data quality control and processing for ocean-bottom nodes

Landrų, M., L. Amundsen, and D. Barker, 2011, High-frequency signals from air-gun arrays

Soubaras, R., and R. Dowle, 2010, Variable-depth streamer—A broadband marine solution
Breitzke M. and T. Bohlen, 2010, Modelling sound propagation in the Southern Ocean to estimate the acoustic impact of seismic research surveys on marine mammals
Long A., 2010, An overview of seismic azimuth for towed streamers
Olofsson, B., 2010, Marine ambient seismic noise in the frequency range 1–10 Hz
Ghosh, M. F. Halim, M. Brewer, B. Viratno, and N. Darman, 2010, Geophysical issues and challenges in Malay and adjacent basins from an E&P perspective
Kabir, N., K. Lee, W. Rietveld, B. Barley, J. Keggin, and G. Johnson, 2010, Multiazimuth versus wide-azimuth acquisition designs for sub-Messinian imaging: A finite-difference modeling study in West Nile Delta, Egypt
Kragh, E., E. Muyzert, T. Curtis, M. Svendsen, and D. Kapadia, 2010, Efficient broadband marine acquisition and processing for improved resolution and deep imaging
Goutorbe B. and V. Combier, 2010, On the reconstruction of the shape of a seismic streamer
Elboth, T., D. Lilja, B. A. P. Reif, and O. Andreassen, 2010, Investigation of flow and flow noise around a seismic streamer cable
Brown R.J., 2010, Acquisition footprints and seafloor coupling in multicomponent OBC seismic data

Vermeer, G., 2009, Wide-azimuth towed-streamer data acquisition and simultaneous sources
Elboth, T., B. A. P. Reif, and O. Andreassen, 2009 Flow and swell noise in marine seismic data

Pharez, S., N. Hendrick, and R. Tenghamn, 2008, First look at seismic data from a towed dual-sensor streamer
Moldoveanu, N., J. Kapoor, and M. Egan, 2008, Full-azimuth imaging using circular geometry acquisition
Breitzke, M., O. Boebel, S. El Naggar, W. Jokat, B. Werner, 2008, Broad-band calibration of marine seismic sources used by R/V Polarstern for academic research in polar regions
Lindwall, D., 2008, 3D underwater imaging using vector acoustic sensors

Carlson, D., A. Long, W. Söllner, H. Tabti, R. Tenghamn, and N. Lunde, 2007, Increased resolution and penetration from a towed dual-sensor streamer First Break, 25, 71–77.
Barley B. and T. Summers, 2007, Multi-azimuth and wide-azimuth seismic: Shallow to deep water, exploration to production
Corcoran, C., C. Perkins, D. Lee, P. Cattermole, R. Cook, and N. Moldoveanu, 2007, A wide-azimuth streamer acquisition pilot project in the Gulf of Mexico
Michell, S., J. Sharp, and D. Chergotis, 2007, Dual-azimuth versus wide-azimuth technology as applied in subsalt imaging of Mad Dog Field—a case study
Howard, M., 2007, Marine seismic surveys with enhanced azimuth coverage: Lessons in survey design and acquisition
Beaudoin G. and A. A. Ross, 2007, Field design and operation of a novel deepwater, wide-azimuth node seismic survey
Clarke, R., G. Xia, N. Kabir, L. Sirgue, and S. Michell, 2007, Processing of a novel deepwater, wide-azimuth node seismic survey
Manning, T., N. Shane, C. Page, B. Barley, W. Rietveld, and J. Keggin, 2007, Quantifying and increasing the value of multi-azimuth seismic
Moldoveanu, N., L. Combee, M. Egan, G. Hampson, L. Sydora, and W. Abriel, 2007, Over/under towed-streamer acquisition: A method to extend seismic bandwidth to both higher and lower frequencies
Stewart, J., A. Shatilo, C. Jing, T. Rape, R. Duren, K. Lewallen, and G. Szurek, 2007, A comparison of streamer and OBC seismic data at Beryl Alpha field, U. K. North Sea

Dorman L. and A. W. Sauter, 2006, A reusable implosive seismic source for midwater or seafloor use

Bouska J. and R. Johnston, 2005, The first 3D/4-C ocean bottom seismic surveys in the Caspian Sea: Acquisition design and processing strategy

Hornman K., 2004, Data acquisition over the Lunskoye gas cloud
Gettrust, J.F., W. T. Wood, and S. E. Spychalski, 2004, High-resolution MCS in deepwater

Calvert, A., E. Ekstrand, B. McLain, J. Etgen, F. Billette, V. Sen, C. Regone, T. Byrd, M. Truxillo, S. Young, and Y. Cobo, 2003, Pushing the limits of resolution at Holstein: A case history from the deepwater Gulf of Mexico
Eiken, O., G. U. Haugen, M. Schonewille, and A. Duijndam, 2003, A proven method for acquiring highly repeatable towed streamer seismic data

Sukup D.V., 2002, Wide-azimuth marine acquisition by the helix method
Nyland D.L., 2002, Water column pressures induced by vibrators operating on floating ice
Caldwell J., 2002, Does air-gun noise harm marine mammals?

Dragoset, B., 2000, Introduction to air guns and air-gun arrays
Caldwell J., and W. Dragoset, 2000, A brief overview of seismic air-gun arrays
Buffenmyer, V., M. Poulton and R. Johnson, 2000, Identification of seismic crew noise in marine surveys by neural networks
Stephen, R.A., 2000, Ambient seismic noise below the deep seafloor

Seaborne, R., H. Shah, P. Strachowski and J. Willington, 1999, An unusual noise source: Whales
Ikelle L.T. and R.J. Wilson, 1999, Potential impacts of vertical cable (VC)
Gikas V. and P. A. Cross, 1999, Reliability analysis in dynamic systems: Implications for positioning marine seismic networks

Huard, I. and S. Spitz, 1998, Filling gaps in the coverage of 3-D marine acquisition
Brink M. and S. Ronen, 1998, Coverage and binning issues for marine seismic surveys
Ziolkowski, A., 1998, Measurement of air-gun bubble oscillations

Barr, F.J., 1997, Dual-sensor OBC technology
Ryu J.V., 1997, Seeing through seismically difficult rocks unconventionally
Landrų, M., J. Langhammer and J. Martin, 1997, Damping of secondary bubble oscillations for towed air guns with a screen

Lee, H.Y., B.K. Hyun and Y.-S. Kong, 1996, PC-based acquisition and processing of high-resolution marine seismic data
Singh S.C. R. W. Hobbs and D. B. Snyder, 1996, Broadband receiver response from dual-streamer data and applications in deep reflection seismology

Langhammer, J., M. Landro, J. Martin, and E. Berg, 1995, Air-gun bubble damping by a screen

Johnson T.V., 1994, Understanding air gun bubble behavior
Landro, M., J. Langhammer, R. Sollie, L. Amundsen and E. Berg, 1994, Source signature determination from ministreamer data

Allenou J.P., F. Avedik, B. Morvan and V. Renard, 1993, 'Single bubble' air-gun array for deep exploration
Landro M., B. Owren, S. Vaage and G. Zaalberg-Metselaar, 1993, Modeling of water-gun signatures

Landrų M. and R. Sollie, 1992, Source signature determination by inversion

Ziolkowski A. , 1991, Why don't we measure seismic signatures?

Rendleman C.A. and F. K. Levin , 1990, Seismic exploration on a floating ice sheet

Duren R.E. , 1988, A theory for marine source arrays

Lynn, W., M. Doyle, K. Larner, and R. Marschall , 1987, Experimental investigation of interference from other seismic crews
Dragoset, B., N. Hargreaves, and K. Larner , 1987, Air-gun source instabilities

Fricke, J.R., J. M. Davis, and D. H. Reed , 1985, A standard quantitative calibration procedure for marine seismic sources
Safar M.H. , 1985, Single water gun far-field pressure signatures estimated from near-field measurements

Parkes, G.E., A. Ziolkowski, L. Hatton, and T. Haugland, 1984, The signature of an air gun array: Computation from near-field measurements including interactions - Practical considerations
Tsai C.J., 1984, An analysis leading to the reduction of scattered noise on deep marine seismic records

Ursin B., 1983, Spatial filtering of marine seismic data
Jovanovich, D.B., R. D. Sumner, and S. L. Akins-Easterlin , 1983, Ghosting and marine signature deconvolution: A prerequisite for detailed seismic interpretation
Levin F.K. , 1983, The effects of streamer feathering on stacking
Larner, K. R. Chambers, M. Yang, W. Lynn, and W. Wai , 1983, Coherent noise in marine seismic data

Ziolkowski, A., G. Parkes, L. Hatton, and T. Haugland , 1982, The signature of an air gun array: Computation from near-field measurements including interactions
Larner, K. , D. Hale, S. M. Zinkham and C. Hewlitt , 1982, Desired seismic characteristics of an air gun source

Brandsaęter, H. , A. Farestveit, and B. Ursin , 1979, A new high-resolution or deep penetration airgun array
Arnold M.E. , 1978, Effect of hydrophone arrays on offshore Texas seismic signals
Ibrahim A.K. and G. V. Latham , 1978, A COMPARISON BETWEEN SONOBUOY AND OCEAN BOTTOM SEISMOGRAPH DATA AND CRUSTAL STRUCTURE OF THE TEXAS SHELF ZONE
Lofthouse J.H. and G. T. Bennett , 1978, EXTENDED ARRAYS FOR MARINE SEISMIC ACQUISITION
Schoenberger M. and J. F. Mifsud , 1974, HYDROPHONE STREAMER NOISE
Mayne W.H. and Roy G. Quay , 1971, SEISMIC SIGNATURES OF LARGE AIR GUNS

Acquisition terrestre

Papadopoulo M. et al. (2023) Innovative land seismic investigations for CO2 geologic storage in Denmark

Trickett S. (2022) In search of the vibroseis first arrival
Wei, Z., J. Criss, R. Wang, and A. Clow, (2022), A new generation low-frequency seismic vibrator
Näsholm, S.P., K. Iranpour, A. Wuestefeld, B.D.E. Dando, A.F. Baird, V. Oye, (2022), Array Signal Processing on Distributed Acoustic Sensing Data: Directivity Effects in Slowness Space

Bakulin, A., I. Silvestrov, and R. Pevzner, (2020), Surface seismics with DAS: An emerging alternative to modern point-sensor acquisition
Cordery, S. (2020), An effective data processing workflow for broadband single-sensor single-source land seismic data

Manning, T., D. Ablyazina, and J. Quigley, (2019), The nimble node — Million-channel land recording systems have arrived

Naderyan, V., C. J. Hickey, and R. Raspet (2016), Wind-induced ground motion

Dean, J. C. Dupuis, and R. Hassan (2015). The coherency of ambient seismic noise recorded during land surveys and the resulting implications for the effectiveness of geophone arrays

Dean, T. (2014), The use of pseudorandom sweeps for vibroseis surveys.

Wei, Z. and Phillips, T. (2013). Enhancing the low-frequency amplitude of ground force from a seismic vibrator through reduction of harmonic distortion

Gibson, J., F. Lin, A. Egreteau, J. Meunier, and M. Lansley, 2010, The case for longer sweeps in vibrator acquisition
Wei Z. and T. F. Phillips, 2010, Harmonic distortion reduction on seismic vibrators
Wei, Z., T. F. Phillips, and M.A. Hall, 2010, Fundamental discussions on seismic vibrators
Sallas. J.J., 2010, How do hydraulic vibrators work? A look inside the black box
Ziolkowski A., 2010, Review of vibroseis data acquisition and processing for better amplitudes: adjusting the sweep and deconvolving for the time-derivative of the true groundforce
Nagarajappa, N., D. Wilkinson, 2010, Source measurement effect on high fidelity vibratory seismic separation
Saragiotis, C., P. Scholtz, C. Bagaini, 2010, On the accuracy of the ground force estimated in vibroseis acquisition
Bagaini C., 2010, Acquisition and processing of simultaneous vibroseis data
Blair, D., 2010, Seismic radiation from an explosive column

Wei, Z., 2009, How good is the weighted-sum estimate of the vibrator ground force?
Checa, J., C. Duque, H. Alfonso, E. Chalar, D. Pastore, and C. Pedraza, 2009, Mountain-front seismic acquisition and processing
Qun, S., D. Bin, Z. Bo, C. Jian, G. Deng, G. Dong, Y. Hui, and L. Cheng, 2009, Seismic acquisition with digital point receivers and prestack reservoir characterization at China's Sulige gas field
Saenger, E.H., S. M. Schmalholz, M.-A. Lambert, T. T. Nguyen, A. Torres, S. Metzger, R. M. Habiger, T. Müller, S. Rentsch, and E. Méndez-Hernįndez, 2009 A passive seismic survey over a gas field: Analysis of low-frequency anomalies
Buddensiek, M.L., C. M. Krawczyk, N. Kukowski, and O. Oncken, 2009 Performance of piezoelectric transducers in terms of amplitude and waveform

Lansley, M. M. Laurin, and S. Ronen, 2008, Modern land recording systems: How do they weigh up?
Hons, M.S., R. R. Stewart, D. C. Lawton, M. B. Bertram, and G. Hauer, 2008, Field data comparisons of MEMS accelerometers and analog geophones
Bagaini C., 2008, Low-frequency vibroseis data with maximum displacement sweeps
Postel, J.-J., J. Meunier, T. Bianchi, and R. Taylor, 2008, V1: Implementation and application of single-vibrator acquisition
Mehta, K., R. Snieder, R. Calvert, and J. Sheiman, 2008, Acquisition geometry requirements for generating virtual-source data
Baeten G. and H. van der Heijden, 2008, Improving S/N for high frequencies

Benabentos, M., F. Ortigosa, N. Moldoveanu, and P. Munoz, 2006, Cascaded sweeps—A method to improve vibroseis acquisition efficiency: A field test
Krohn C. E. and M. L. Johnson, 2006, HFVS^TM: Enhanced data quality through technology integration
Drijkoningen, G.G., F. Rademakers, E. C. Slob, and J. T. Fokkema, 2006, A new elastic model for ground coupling of geophones with spikes
Lebedev, A.V., I. A. Beresnev, and P. L. Vermeer, 2006, Model parameters of the nonlinear stiffness of the vibrator-ground contact determined by inversion of vibrator accelerometer data
Craig M.S. and R. L. Genter, 2006, Geophone array formation and semblance evaluation

Gibson, J., R. Burnett, S. Ronen, and H. Watt, 2005, MEMS sensors: Some issues for consideration

Cooper N., 2004, Designing land 3D programs for signal, noise, and prestack migration
Mougenot D. and N. Thorburn, 2004, MEMS-based 3D accelerometers for land seismic acquisition: Is it time?
Lebedev A.V. and I. A. Beresnev, 2004, Nonlinear distortion of signals radiated by vibroseis sources

Cordsen A. and M. Galbraith, 2002, Narrow- versus wide-azimuth land 3D seismic surveys
Hoffe, B.H., G. F. Margrave, R.R. Stewart, D. S. Foltinek, H. C. Bland, and P. M. Manning, 2002, Analyzing the effectiveness of receiver arrays for multicomponent seismic exploration
Curtis A. and J.O. A. Robertsson, 2002, Volumetric wavefield recording and wave equation inversion for near-surface material properties
Ramos-Martķnez J. and G.A. McMechan , 2002, Full wavefield inversion to estimate impact-source orientation from multicomponent land seismic data

Morrice, D.J., A. S. Kenyon and C. J. Beckett, 2001, Optimizing operations in 3-D land seismic surveys
Gulati, J.S., R. R. Stewart and B. H. Hoffe, 2001, Vertical hydrophone cable acquisition and imaging on land
Aritman B.C., 2001, Repeatability study of seismic source signatures
Hamarbitan N.S. and G. F. Margrave, 2001, Spectral analysis of a ghost

Drijkoningen, G.G., 2000, The usefulness of geophone ground-coupling experiments to seismic data

Burger, P., B. Duijndam and D. Wasmuth, 1999, Marine production levels in land 3-D seismic
Deletang B. and J.J. Postel, 1999, How to meet the "cheaper, faster, better" challenge

Mcginn A. and B. Duijndam, 1998, Land seismic data quality improvements
Burger, P., R. Garotta and P.Y. Granger, 1998, Improving resolution and seismic quality assurance through field preprocessing
Wams, J. and J. Rozemond, 1998, Recent developments in 3-D acquisition techniques using vibroseis in Oman
Foster, M.S., S. J. Price, G. S. Hill, C. Duque, D. Ellis and R. W. Stephenson, 1998, A breakthrough in the quality of seismic data from the fold belt of Papua New Guinea
Liu H.P. and R. E. Warrick, 1998, Effect of cable capacitance on in-situ borehole geophone calibration

Li X.P., 1997, Decomposition of vibroseis data by the multiple filter technique

Yokoi T., 1996, Numerical study on the generation of downgoing S-waves by a vertical force acting close to a step-like topography
Steer D.N., L. D. Brown, J. H. Knapp and D. J. Baird, 1996, Comparison of explosive and Vibroseis source energy penetration during COCORP deep seismic reflection profiling in the Williston Basin
Wu J., 1996, Potential pitfalls of crooked-line seismic reflection surveys
Park C.B., R. D. Miller, D. W. Steeples and R. A. Black, 1996, Swept impact seismic technique (SIST)

Li X.P., W. Sollner and P. Hubral, 1995, Elimination of harmonic distortion in Vibroseis data

Ziolkowski A., 1993, Determination of the signature of a dynamite source using source scaling, part I: Theory
Bokhorst K. and A. Ziolkowski, 1993, Determination of the signature of a dynamite source using source scaling, part II: Experiment
Ata E.Z., D. Corrigan, J. E. Gaiser and G. A. McMechan, 1993, Estimation of near-surface elastic parameters using multicomponent seismic data
Amos S., M. Kohli and J. K. O'Connell, 1993, Bullwinkle: A unique 3-D experiment
Owen T.E. and J. O. Parra, 1993, Comparison of high-resolution wax-embedded and pneumatically coupled borehole seismic detectors
Ballard R.F., Jr., K. L. Hambacker and R. D. Rechtien, 1993, A high-frequency sparker source for the borehole environment

Okaya, D.A., E. Karageorgi, T. V. McEvilly, and P. E. Malin , 1992, Removing vibrator-induced correlation artifacts by filtering in frequency-uncorrelated time space

Fontana P.M. and T.-A. Haugland , 1991, Compact sleeve-gun source arrays

Levin F.K. , 1989, The effect of geophone arrays on random noise
Aldridge D.F. , 1989, Statistically perturbed geophone array responses
Okaya D.A. and C. M. Jarchow , 1989, Extraction of deep crustal reflections from shallow Vibroseis data using extended correlation
Berni A.J. and W. L. Roever , 1989, Field array performance: Theoretical study of spatially correlated variations in amplitude coupling and static shift and case study in the Paris Basin
Morse P.F. and G. F. Hildebrandt , 1989, Ground-roll suppression by the stackarray

Cliet C. and M. Dubesset , 1987, Three-component recordings: Interest for land seismic source study
Hardee, H.C., G. J. Elbring, and B. N. P. Paulsson , 1987, Downhole seismic source
Schrodt J.K. , 1987, Techniques for improving Vibroseis data

Belcher, S.W., T. L. Pratt, J. K. Costain, and C. Ēoruh , 1986, Alternative processing techniques and data improvement provided by single-sweep recording
Mayer J.R. and L. D. Brown , 1986, Signal penetration In the COCORP Basin and Range-Colorado Plateau survey
Jalinoos F. and J. E. White , 1986, Wave propagation from an explosive source

Lash C.C. , 1985, Shear waves produced by explosive sources
Tan T.H. , 1985, The elastodynamic field of N interacting vibrators
Davis T.L. and D. C. Lawton , 1985, Field testing of explosive surface seismic sources in the Canadian thrust belt
MacArthur A. , 1985, Geophone frequency calibration and laser verification

Biswell, D.E., L. F. Konty, and A. L. Liaw, 1984, A geophone subarray beam-steering process
Sallas J.J., 1984, Seismic vibrator control and the downgoing P-wave
Krohn C.E., 1984, Geophone ground coupling

Coruh C. and J. K. Costain , 1983, Noise attenuation by Vibroseis whitening (VSW) processing
Stoffa P.L. and A. Ziolkowski , 1983, Seismic source decomposition

Bickel S.H. , 1982, The effects of noise on minimum-phase Vibroseis deconvolution
Robinson D.K. and M.I. Al-Husseini , 1982, Technique for reflection prospecting in the Rub' Al-Khali
Edelmann H.A.K. and H. Werner , 1982, The encoded sweep technique for Vibroseis

Chapman, W.L., G. L. Brown, and D. W. Fair , 1981, The Vibroseis system: A high-frequency tool

Cunningham A.B. , 1979, Some alternate vibrator signals
Goupillaud P.L. , 1976, SIGNAL DESIGN IN THE "VIBROSEIS" TECHNIQUE
Jolly R.N. and J. F. Mifsud, 1971, EXPERIMENTAL STUDIES OF SOURCE-GENERATED SEISMIC NOISE

Dispositif d'acquisition

Naghizadeh M. (2015). Double-weave 3D seismic acquisition — Part 2: Seismic modeling and subsurface fold analyses
Coles, D., M. Prange, and H. Djikpesse (2015). Optimal survey design for big data.

Gray, S. (2013). Spatial sampling, migration aliasing, and migrated amplitudes

Mahdad, A., P. Doulgeris, and G. Blacquiere, 2011, Separation of blended data by iterative estimation and subtraction of blending interference noise

Vermeer G.J.O., 2010, 3D symmetric sampling of sparse acquisition geometries

Monk D.J., 2009, Fresnel zone binning: Application to 3D seismic fold and coverage assessments
Trad D., 2009, Five-dimensional interpolation: Recovering from acquisition constraints

Veldhuizen, E. J. van, G. Blacquičre, and A. J. Berkhout, 2008, Acquisition geometry analysis in complex 3D media
Panea I. and G. Drijkoningen, 2008, The spatial data-adaptive minimum-variance distortionless-response beamformer on seismic single-sensor data
Tashmukhambetov, A.M., G. E. Ioup, J. W. Ioup, N. A. Sidorovskaia, and J. J. Newcomb, 2008, Three-dimensional seismic array characterization study: Experiment and modeling
Askeland, B., H. Hobęk, and R. Mjelde, 2008, Semiperiodic chirp sequences reduce autocorrelation side lobes of pulsed signals

Ramsden, C., G. Bennett, and A. Long , 2005, High-resolution 3D seismic imaging in practice

Galbraith M., 2004, A new methodology for 3D survey design
Long A., 2004, Postsurvey calibration of 3D seismic results to presurvey modeling predictions
Lansley R.M., 2004, CMP fold: A meaningless number?

Gibson, R.L. and C. Tzimeas, 2002, Quantitative measures of image resolution for seismic survey design
Gesbert S., , 2002, From acquisition footprints to true amplitude

Savage J.E. and J.C. Mathewson, 2001, Prediction of 3-D seismic footprint from existing 2-D data
Schuster G.T and Z. Liu, 2001, Seismic array theorem and rapid calculation of acquisition footprint noise
Kerekes, A.K., 2001, Seismic array design by spatial convolution
Berkhout, A.J., L. Ongkiehong, A.W.F. Volker and G. Blacquičre, 2001, Comprehensive assessment of seismic acquisition geometries by focal beams Part I: Theoretical considerations
Volker, A.W.F., G. Blacquičre, A. J. Berkhout and L. Ongkiehong, 2001, Comprehensive assessment of seismic acquisition geometries by focal beams Part II: Practical aspects and examples

Curtis, A. and H. Maurer, 2000, Optimizing the design of geophysical experiments: Is it worthwhile?
Bear, G., C.P. Lu, R. Lu, D. Willen and I. Watson, 2000, The construction of subsurface illumination and amplitude maps via ray tracing
Donze, T.W. and J. Crews, 2000, Moving shots on a 3-D seismic survey: The good, the bad, and the ugly (or How to shoot seismic without shooting yourself in the foot!)
Ebrom D. and X. Li, 2000, Facilitating technologies for permanently instrumented oil fields
Newman, B.J., 2000, Spatial aliasing and 3-D size: The quest for cleaner, cheaper data

Hill, S., Shultz, M. and Brewer, J., 1999, Acquisition footprint and fold-of-stack plots

Vermeer, G.J.O., 1998, 3-D symmetric sampling in theory and practice
Meldahl, P., 1998, Survey evaluation and design: Prediction of resolution versus line interval
La Bella, G., E. Loinger and L. Savini, 1998, The cross-shooting methodology: Design, acquisition, and processing
Schroeder, F., T.G. Farrington, S.G. Balon and C. S. Rapp, 1998, How fold and bin size impact data interpretability
Vermeer G.J.O, 1998, 3-D symmetric sampling

Kerekes, A.K., 1997, The stack array and the spatial alias
Padhi T. and T. K. Holley, 1997, Wide azimuths - Why not?
Levin F.K., 1997, Bandwidth reduction from location inaccuracies

von Seggern D., 1994, Depth-imaging resolution of 3-D seismic recording patterns